Control switch with integrated RFID tag

1. A control system for controlling operation of a field device, the control system comprising: a switch having a switch contact movable between an off position and an activated position; a radio frequency identification (RFID) tag integrated with the switch and in selective communication with the switch based on the position thereof; an RFID reader configured to receive switch messages from the RFID tag that indicate an operational state of the switch; a control circuit configured to receive switch messages from the RFID reader, the control circuit receiving the switch messages for purposes of controlling the field device; and an antenna integrated with the switch and selectively in operable communication with the RFID tag based on the position of the switch contact; wherein the switch contact forms a communications path between the RFID tag and the antenna when in the activated position; and wherein the antenna generates a switch message for transmission to the RFID reader when the communications path is formed between the RFID tag and the antenna.

2. The control system of claim 1 wherein the switch comprises a limit switch whose switch contact moves between the off position and the activated position based on a movement of the field device relative to the limit switch.

3. The control system of claim 2 wherein the limit switch comprises a spring loaded limit switch or a reed switch.

4. The control system of claim 1 further comprising a potting housing the switch and the RFID tag, so as to protect the switch and the RFID tag from a caustic environment.

5. The control system of claim 1 wherein the control system comprises an intrinsically safe control system, with the switch and the RFID tag being located in a hazardous environment and the RFID reader and control circuit being located in an intrinsically safe environment.

6. The control system of claim 5 wherein power in or provided to the RFID tag is limited such that it remains below prescribed voltage and current intrinsic safety limits.

7. The control system of claim 1 wherein the RFID reader transmits interrogator signals to the RFID tag, with the RFID tag generating switch messages responsive to the interrogator signals.

8. The control system of claim 1 wherein the RFID tag includes thereon a unique identifier tied to a function of the switch, with each switch message received by the RFID reader including the unique identifier of the RFID tag.

9. A limit switch control system for controlling operation of a field device, the limit switch control system comprising: a limit switch including a switch contact movable between an off position and an activated position, the switch contact movable between the off position and the activated position responsive to a movement or positioning of the field device relative to the limit switch; a radio frequency identification (RFID) tag integrated with the limit switch, the RFID tag including thereon a unique identifier tied to a function of the limit switch in its activated position; and an antenna integrated with the limit switch and selectively in operable communication with the RFID tag based on a position of the switch contact; wherein a communications path between the RFID tag and the antenna is formed by the switch contact when the limit switch is in the activated position, thereby causing the antenna to transmit a switch signal to an RFID reader remote from the limit switch, the switch signal including therein the unique identifier of the RFID tag.

10. The limit switch control system of claim 9 wherein the limit switch comprises a spring loaded limit switch or a reed switch.

11. The limit switch control system of claim 9 further comprising a potting housing the limit switch, the RFID tag and the antenna so as to protect the limit switch, the RFID tag and the antenna from a caustic environment.

12. The limit switch control system of claim 9 wherein the RFID tag comprises an active tag configured to communicate with the RFID reader from a remote location.

13. The limit switch control system of claim 10 wherein the switch signal transmitted to the RFID reader from the RFID tag comprises a data message transmittable on a communications link connected to the RFID reader.

14. An intrinsically safe control system for controlling operation of a field device, the intrinsically safe control system comprising: a switch having a switch contact movable between an off position and an activated position; a radio frequency identification (RFID) tag integrated with the switch; an antenna operable with the RFID tag to transmit switch messages indicative of an operational state of the switch, wherein movement of the switch between the off position and the activated position selectively provides a communications path between the RFID tag and the antenna; a control circuit in operable communication with the switch via transmission of the switch messages thereto, with the switch messages causing the control circuit to control operation of the field device.

15. The intrinsically safe control system of claim 14 further comprising an RFID reader configured to: receive switch messages from the antenna and the RFID tag based on actuation of the switch to the activated position; and transmit the switch messages to the control circuit.

16. The intrinsically safe control system of claim 14 wherein the switch, RFID tag and antenna are located in a hazardous environment and the RFID reader and control circuit ate located in an intrinsically safe environment, with power in or provided to the RFID tag being limited such that it remains below prescribed voltage and current intrinsic safety limits.

17. The intrinsically safe control system of claim 14 wherein the RFID tag includes thereon a unique identifier tied to a function of the switch, with each switch message received by the RFID reader including the unique identifier of the RFID tag.

18. The intrinsically safe control system of claim 14 wherein the switch comprises a limit switch whose switch contact moves between the off position and the activated position based on a movement of the field device relative to the limit switch.